Z Score,T Score, Percential Rank and Box Plot Graph
Biodiesel Production for On-Farm Use
1. Biodiesel Production for On-Farm Use
A Curriculum for Agricultural Producers
Prepared by
For the
National Center for Appropriate Technology
With funding and cooperation from the
USDA Risk Management Agency
2. Overview
• Introduction
• The Chemistry of Biodiesel
• Advantages and Disadvantages
• Biodiesel Feedstocks
• Oil Processing
• Small Scale Biodiesel Production
• On-farm Case Studies
3. Introduction: What is Biodiesel?
• A permanently thinned
vegetable oil
• A diesel fuel replacement
produced from vegetable oils or
animal fats through the chemical
process of transesterification
• Biodiesel can be used in any
diesel engine in any proportion
from 1-100% with little or no
modifications to the engine
4. Biodiesel: What is it not?
Ethanol or E85
Unprocessed
Vegetable Oil
Mixtures of
vegetable oil or
alcohol with
diesel fuel
5. History of Vegetable Oil
Based Fuels
• 1900 - Rudolph Diesel debuted the first
diesel engine running on peanut oil at the
World’s Exhibition in Paris
• He likely used peanut oil at the request of
the French Government, who were
interested in its use in their African colonies
• After Diesel’s mysterious death in 1913,
development focused on the use of
petroleum-based fuels
The use of vegetable oils as engine fuels may seem
insignificant today but the such oils may become, in
the course of time, as important as petroleum and
the coal tar products of the present time.
-Rudolph Diesel, 1912
6. Why make biodiesel?
Diesel fuel injectors
are not designed for
viscous fuels like
vegetable oil
Glycerin (thick)
Biodiesel
7. The Chemistry of Biodiesel
• All fats and oils consist of triglycerides
• Glycerol/glycerine = alcohol
• 3 fatty acid chains (FA)
• Transesterification describes the reaction
where glycerol is replaced with a lighter and
less viscous alcohol, e.g. methanol or ethanol
• A catalyst (KOH or NaOH) is needed to break
the glycerol-FA bonds
8. Advantages of Biodiesel
• Biodegradable
• Non-toxic
• Favorable Emissions Profile
• Renewable
• Carbon Neutrality
• Domestic production
9. Advantages of Biodiesel
• Requires no engine modifications (except
replacing some fuel lines on older engines).
• Can be blended in any proportion with
petroleum diesel fuel.
• High cetane number and excellent lubricity.
• Very high flashpoint (>300°F) means greater
safety
• Can be made from waste restaurant oils and
animal fats
11. Global Warming
• Biodiesel has a (nearly) closed
carbon cycle
• Biodiesel yields a 78% carbon
dioxide (CO2) reduction compared
to petroleum diesel under life-
cycle analysis.
• Biodiesel has the most favorable
energy balance of any liquid fuel
• 3.2:1 for soy biodiesel
12. World Oil – In Perspective
You
Your
Children
Your
Grand
Children
Your
Grand
Parents
13. Vegetable Oil as Feedstocks
• Oil-seed crops are the focus for
biodiesel production expansion
• Currently higher market values
for competing uses constrain
utilization of crops for biodiesel
production
• Most oil-seed crops produce
both a marketable oil and meal
• Seeds must be crushed to
extract oil
• The meal often has higher
market value than the oil
14. U.S. Oil-Producing Crops
*Harvest yields from USDA NASS service, 2006 figures
1 Biodiesel Magazine, Feb. 2007
2 O’Brian, Richard D. Fats and Oils: Formulating and Processing for Applications, 2004
2019819Cottonseed
59351300Camelina1
63401211Sunflower
63192562Soybean
76431366Canola
175472874Peanut
46
46
Gal/acre
(approx.)
4
33
Oil content
% (avg)2
Land Crop Yields based on US average 2006
8946Corn
1069Safflower
Avg Harvest
(lbs)
Crop
15. Soybeans
• Primary source for biodiesel production in U.S.
• Market value at $6.64-7.05 per bushel (60 lbs) range for
conventional as of March 2007
• $9+ per bushel for organic
• Approximately 75.5 million acres of soybeans in production
(2006)
• Approximately 2 billion gallons
of oil produced annually
• 85% of soybeans sold as meal for
animal feed
• Oil is an added value to the meal
• Large, diverse market demand
reduces availability for biodiesel
• Meal valuable for livestock
16. Canola/Rapeseed
• Rapeseed is a member of the mustard family
• Canola is a variety of rapeseed bred to have
low levels of erucic acid and glucosinolates
(both of which are undesireable for human
consumption)
• Both spring and winter varieties grown
• Depends on geographical location
• Winter crop in NC
• Good oil yield
• Premium cold flow properties
17. Peanuts
• Nearly 15% of peanuts are crushed for oil use in U.S.
• Value range of $0.23 -.30 per lb. of peanut depending on
state, variety, production system (higher for organic)
• $.50 per gallon of oil obtained (on average)
• Market value for premium quality edible oil currently limits
use in commercial biodiesel production
• Production limited to southern regions of U.S.
• Research on “industrial” peanuts—not suitable for human
consumption—being conducted at the University of Georgia
• Will potentially make peanuts more economically
feasible as biodiesel source
18. Sunflowers
• Wide geographical range for production
• Market value is high for edible oil and seeds, birdseeds
• $.08 -.12 per lb. market value
• University of New Hampshire project
• 1.86 million acres of sunflowers harvested in the U.S. in 2006
19. Camelina
• Camelina sativa is a member of the
mustard family
• Summer annual crop suited to grow in
semi-arid climates and northern U.S.
• Research on variety development and
economic feasibility are being
conducted at Montana State, North
Dakota State, and Purdue University
• The cost of camelina-based biodiesel would
likely be $2 per gallon compared to 3$ per
gallon for soy-based
• Variable and fixed costs are 1/3 - 1/4
the cost of canola
• $45 to $68 per acre
20. Other oil crops
Oil Palm
• Up to 500 gallons/acre
yield
• The most widely
produced oil outside of
the USA.
• Fruit grows in
bunches, each
weighing 22-110 lbs.
• Poor cold weather
performance
21. Algae
• NREL Study (1978-1996)
investigated using algae
as a biofuel feedstock
• Theoretical yields of
10,000 gallons/acre
• 250 times greater than
soybean oil
• GreenFuel Technologies -
promising
22. Oil Processing
• Oil-seed crops must be crushed to extract oil
• This can be done on-farm or at a crushing facility
• Small scale systems use mechanical crushing
• Commercial crushers often also use hexane
extraction
• Hexane is toxic but removes more than 99% of oil
• Before conversion, oil must be degummed:
• Treat with phosphoric acid for 4-8 hours (300-1000
ppm for soy, 1000-3000 ppm for canola)
• Water wash
• Vacuum drying
• Oil often purchased as “Crude, degummed.”
RBD = Refined, Bleached, Deodorized
23. Disadvantages of biodiesel
• Lower Energy Content
• 8% fewer BTU’s per gallon, but also higher cetane #,
lubricity, etc.
• Poor cold weather performance
• This can be mitigated by blending with diesel fuel or with
additives, or using low gel-point feedstocks such as
rapeseed/canola.
• Stability Concerns
• Biodiesel is less oxidatively stable than petroleum diesel
fuel. Old fuel can become acidic and form sediments and
varnish. Additives can prevent this.
• Scalability
24. Biodiesel Feedstocks
Vegetable Oil (Billion lbs/yr)
• Soybean 18.340
• Peanuts 0.220
• Sunflower 1.000
• Cottonseed 1.010
• Corn 2.420
• Others 0.669
Total Vegetable Oil 23.659
Animal Fats/Oils (Billion lbs/yr)
• Edible Tallow 1.625
• Inedible tallow 3.859
• Lard & Grease 1.306
• Yellow Grease 2.633
• Poultry Fat 2.215
Total Animal Fat 11.638
• Total annual production of U.S. fats and oils (2004)
• 35.3 billion pounds = 4.6 billion gallons of oil =
4.6 billion gallons of biodiesel
25. Diesel fuel consumption
• 2004 U.S. Diesel use = 62 billion gallons
• On-road diesel use = 37 billion gallons
• 4.6 billion gallons of biodiesel divided by 62 billion = 7.4%
• All vegetable oils and fats produced in the U.S. could
only supply enough biodiesel to replace 5-10% of
current consumption
• More feedstocks are needed to supply the growing
biodiesel industry!
• Conservation is key
27. Farm-scale oil presses
• Generally two types of mechanical oil presses are
available
• Screw and Hydraulic
• The presses use mechanical force to compress the
oil out of the seeds.
• They are typically powered by an electric or
diesel motor
• Presses vary in capacity (2-27 liters/hour) and cost
($400 - $13,000)
28. Examples of oil presses
•Taby Pressen (Sweden)
• Electric powered screw oil presses
• www.oilpress.com
•Komet (Germany)
•Cold presses (i.e. no heat added)
•Mammoth (US)
•Diesel powered oil press
•Joel Koch (sawyer335@gmail.com)
•Kickstart (Kenya)
•Ram press designed for “Better World Workshop
•www.kickstart.org
Komet Press
Ram Press
Taby Press
30. On-farm/ off-road biodiesel
• Biodiesel used as off-road fuel is exempt
from state or federal road excise taxes
• Fuel should meet the ASTM specification
D 6751
• EPA registration is exempt for off-road
fuel production
• Can be produced using either waste oils
brought in or using locally grown energy
crops such as canola, soy, sunflower,
mustard, etc.
31. BE Bioenergy/Steven Hobbs
• Victoria, Australia
• Uses a 4% biodiesel blend in
all on-farm diesel vehicles
• Currently grows a mixture of
canola and mustard on farm,
and press canola from
neighboring farms.
• Plans to build small-scale
biodiesel production plant
using local feedstocks
• www.bebioenergy.com
steven@bebioenergy.com
32. • Located in Moncure, North Carolina
• Powers two tractors and two farm pick-up trucks
on 100% biodiesel (B100) produced at the farm
• Primarily uses waste vegetable oil as feedstock
• Have grown variety trials of canola, rapeseed
and mustard radish.
Piedmont Biofuels Biofarm
33. North Carolina
Asheboro Zoo
• Biodiesel is made from
waste vegetable oil collected
from zoo restaurants
• Restaurants currently
provide about 1,500 gallons
of used oil. 40% of diesel
use is at B20 blend level
• Plans to replace all diesel
fuel use with B100
• Biodiesel is used in zoo
trams, buses, trucks, tractors
and equipment
34. Independence Valley Farm
• Located in Rochester, Washington
• Received Western SARE Producer Grant
for production development (2000)
• Utilized waste vegetable oil as feedstock
for biodiesel
• Biodiesel replaced 330 gallons of
petroleum-based diesel fuel
• Two tractors
• Market van
35. Gaston County, NC
School Bus Garage
• Waste vegetable oil
• 12,000 gallons
production in 2006
• Buses and fuel
delivery truck
• Expansion to 60,000
gallons
• $150,000 savings over
2 years
36. Further Resources
• www.attra.org — Small scale oilseed processing guide,
Biodiesel: A Brief Overview
• www.bebioenergy.com — Biodiesel, Farming for the Future
• www.landinstitute.org — Insights from Sunshine Farm
• www.folkecenter.dk — Cold-Pressing of Oilseeds,
Organic Rape Cultivation, Pure Plant Oil (3 separate articles)
• www.wsare.usu.edu — On Farm Biodiesel Production with WVO
• www.green-trust.org — Sunflower Seed Huller & Oil-seed Press
• www.oilpress.com — Taby-pressen oil seed presses
• www.journeytoforever.org/biofuel_food.html — Food or Fuel?
• www.unh.edu/p2/biodiesel/index.html
• www.eere.energy.gov/biomass/publications.html
• www.bioproducts-bioenergy.gov/pdfs/bcota/abstracts/19/z347.pdf
37. National Biodiesel Board
(NBB)
• National Soydiesel Development Board changed its
name to NBB in 1995 and began to focus its efforts
on addressing technical and regulatory needs to
commercialize biodiesel.
Two main accomplishments:
1. Helped develop an ASTM specification
for biodiesel
2. Registered biodiesel with the EPA by
completing Tier 1 and Tier 2 health data
testing at a cost of over $2.2 million
• Annual NBB conference (Orlando, FL February 2008)